About the company
Area of Experties
- Femtosecond lasers
- Microscopy sources
- Wavelength-tunable sources (OPAs)
- High-intensity systems (OPCPAs)
- Spectroscopy systems
- Harmonic generators
Leading Products
OPCPA-HE
High-Energy OPCPA Systems
The most powerful high-energy OPCPA systems are scalable to multi-TW peak powers at kHz repetition rates, maintaining few-cycle pulse durations and excellent pulse contrast. They meet the most demanding requirements while providing unprecedented stability and reliability for systems of this scale.
HARPIA-TA
Ultrafast Transient Absorption Spectrometer
The comprehensive spectroscopy system performs a variety of sophisticated time-resolved measurements within a compact footprint. It offers an intuitive user experience and easy day-to-day maintenance, meeting the needs of modern scientific applications. Extension modules and customization options allow the system to be tailored to specific measurement needs.
CRONUS-2P
Three-Channel Wavelength-Tunable Femtosecond Laser
The femtosecond laser features three synchronized watt-level outputs, offering a high repetition rate, short pulse duration, and GDD control. It enables simultaneous 2P excitation of multiple fluorescent probes, calcium indicators, opsins, as well as CARS and SRS, making it the ultimate source for nonlinear microscopy.
ORPHEUS-NEO
Next-Generation Optical Parametric Amplifier
The next-generation OPA is an invaluable tool for the most demanding scientific applications, available in multiple configurations providing high-power UV to MIR (210 – 16000 nm) outputs with exceptional long-term stability. Equipped with multiple detectors for pump beam position tracking and continuous monitoring of output parameters, it ensures the fastest remote diagnostics and troubleshooting.
PHAROS
Modular-Design Femtosecond Lasers for Industry and Science
The Pharos series of femtosecond lasers combine multi-millijoule pulse energy (up to 4 mJ) with high average power, offering tunability to cover applications that typically require multiple different laser systems. The robust optomechanical design is optimized for both scientific and industrial applications, ensuring exceptional laser lifetime and stable operation in diverse environments.
CARBIDE
Unibody-Design Femtosecond Laser for Industry and Science
The Carbide series of femtosecond lasers combine high average power (up to 120 W, 1 mJ or 80W, 2 mJ) with excellent power stability, featuring market-leading output parameters without compromising beam quality and stability. The compact and robust optomechanical design, available in both air-cooled and water-cooled models, supports a variety of applications in top-class research centers and industries.
Latest News
MANUFACTURING PROCESS OF FEMTOSECOND LASERS
At Light Conversion, all crucial components are manufactured in-house, from special mechanical parts and electronics to complex optical assemblies. Even some of the manufacturing equipment is designed and built on-site to address specific challenges and meet demanding quality requirements. Various tests are conducted on in-house components and laser systems to ensure exceptional quality and stability.
SYLOS 3: HIGH-INTENSITY LEAPS IN FUNDAMENTAL RESEARCH
SYLOS 3, a high-intensity laser system with groundbreaking parameters, has gone through the final installation stages at the ELI-ALPS Research Institute. This exceptional system delivers 15 TW of peak power at a 1 kHz repetition rate and an 8 fs pulse duration. The kilohertz repetition rate enables researchers to collect significantly more data, thus improving the efficiency of experiments.
THREE-PHOTON MICROSCOPY COMES OF AGE
Nonlinear microscopy is a powerful technique for imaging inside living organisms with submicrometer resolution at millimeter depths. Consequently, multiphoton microscopy has revolutionized neuroimaging and is becoming a standard tool in neuroscience. How does three-photon microscopy compare to two-photon microscopy? Explore the potential of three-photon imaging with Light Conversion’s microscopy-dedicated CRONUS-3P femtosecond laser.